01029nam0-22003251i-450-99000289392040332120100303085548.0000289392FED01000289392(Aleph)000289392FED0100028939220030910d1998----km-y0itay50------baengGBStatistical inference for Lorenz curves with censored dataFrank A. Cowell, Maria-Pia Victoria-FeserLondonLondon School of Economics and Political Science199822 p.21 cmDiscussion paperDARPLondon School of Economic35EconomiaInferenza statistica519.5Cowell,Frank A.117649Victoria-Feser,Maria-Pia117650ITUNINARICAUNIMARCBK990002893920403321XXVI-C-926221MASMASStatistical inference for Lorenz curves with censored data466796UNINA01243nam0-2200397li-450-99000024708020331620050223140740.0O-471-19031-40024708USA010024708(ALEPH)000024708USA0100247082001991061281999----y0itay0103----baengUSComprehensive organic transformationsa guide to functional group preparationsby Richard C. LarockNew YorkWiley-VCHc1999XLIII, 2583 p.ill.30 cmSintesi organica547.2LAROCK,Richard C.66577Sistema bibliotecario di Ateneo dell' Università di SalernoRICA990000247080203316547.2 LAR BCBS 002529554700100254547.2 LAR3924 Farm.547.200115422BKSCIFAR1991061220001110USA011715AAA1020001221USA01111120020403USA011633PATRY9020040406USA011618PATRY9020050223USA011407Comprehensive organic transformations73592UNISA05469nam 2200697Ia 450 991100661440332120200520144314.097866121674549781282167452128216745697800805700370080570038(CKB)1000000000748880(EBL)452901(OCoLC)500845160(SSID)ssj0000292322(PQKBManifestationID)12064760(PQKBTitleCode)TC0000292322(PQKBWorkID)10269200(PQKB)10082356(MiAaPQ)EBC452901(PPN)170600076(FR-PaCSA)88811941(FRCYB88811941)88811941(EXLCZ)99100000000074888020090706d2009 uy 0engur|n|---|||||txtccrComputational fluid dynamics in fire engineering theory, modelling and practice /edited by Guan Heng, Yeoh, Kwok Kit YuenBurlington, MA ;Oxford Butterworth-Heinmann20091 online resource (545 p.)Description based upon print version of record.9780750685894 0750685891 Includes bibliographical references and index.Front Cover; Computational Fluid Dynamics in Fire Engineering: Theory, Modelling and Practice; Copyright; Table of Contents; Preface; Chapter 1: Introduction; 1.1 Historical Development of Fire Modeling; 1.2 Overview of Current Trends in Fire Modeling; 1.3 Review of Major Fire Disasters and Impact on Fire Modeling; 1.3.1 Kings Cross Fire; 1.3.2 World Trade Center Fire; 1.4 Application of Fire Dynamics Tools in Practice; 1.5 Validation and Verification of Fire Dynamics Tools; 1.6 Scope of the Book; Chapter 2: Field Modeling Approach; Part I Mathematical Equations2.1 Computational Fluid Dynamics: Brief Introduction2.2 Computational Fluid Dynamics in Field Modeling; 2.3 Equation of State; 2.4 Equations of Motion; 2.4.1 Continuity Equation; 2.4.2 Momentum Equation; 2.4.3 Energy Equation; 2.4.4 Scalar Equation; 2.5 Differential and Integral Forms of the Transport Equations; 2.6 Physical Interpretation of Boundary Conditions for Field Modeling; 2.7 Numerical Approximations of Transport Equations for Field Modeling; 2.7.1 Discretisation Methods; 2.7.1.1 Steady Flows; 2.7.1.2 Unsteady Flows; 2.7.2 Solution Algorithms; 2.7.2.1 Matrix Solvers2.7.2.2 Pressure-Velocity Linkage Methods2.7.3 Boundary Conditions; 2.8 Summary; Part II Turbulence; 2.9 What Is Turbulence?; 2.10 Overview of Turbulence Modeling Approaches; 2.11 Additional Equations for Turbulent Flow-Standard k-epsi Turbulence Model; 2.12 Other Turbulence Models; 2.12.1 Variant of Standard k-epsi Turbulence Models; 2.12.2 Reynolds Stress Models; 2.13 Near-Wall Treatments; 2.14 Setting Boundary Conditions; 2.15 Guidelines for Setting Turbulence Models in Field Modeling; 2.16. Worked Examples on the Application of Turbulence Models in Field Modeling2.16.1 Single-Room Compartment Fire2.16.2 Influence of Gaps of Fire Resisting Doors on Smoke Spread; 2.17 Summary; Chapter 3: Additional Considerations in Field Modeling; Part III Combustion; 3.1 Turbulent Combustion in Fires; 3.2 Detailed Chemistry versus Simplified Chemistry; 3.3 Overview of Combustion Modeling Approaches; 3.4 Combustion Models; 3.4.1 Generalized Finite-Rate Formulation; 3.4.1.1 Background Theory; 3.4.1.2 Species Transport Equations; 3.4.1.3 Laminar Finite-Rate Chemistry; 3.4.1.4 Eddy Break-up and Eddy Dissipation; 3.4.2.1 Description of Approach3.4.2.2 Definition of Mixture Fraction3.4.2.3 Flame Sheet Approximation; 3.4.2.4 State Relationships; 3.4.2.5 Probability Density Function (PDF) of Turbulence-Chemistry; 3.4.2.6 Laminar Flamelet Approach; 3.5 Guidelines for Selecting Combustion Models in Field Modeling; 3.7 Summary; Part IV Radiation; 3.8 Radiation in Fires; 3.10 Radiation Properties of Combustion Products; 3.10.2 Weighted Sum of Gray Gases Model; 3.10.3 Other Models; 3.11.1 Monte Carlo; 3.11.3 Discrete Transfer Radiative Model; 3.11.5 Finite Volume Method; 3.13.2 Two-Room Compartment Fire; 3.14 SummaryChapter 4: Further Considerations in Field ModelingFire and combustion presents a significant engineering challenge to mechanical, civil and dedicated fire engineers, as well as specialists in the process and chemical, safety, buildings and structural fields. We are reminded of the tragic outcomes of 'untenable' fire disasters such as at King's Cross underground station or Switzerland's St Gotthard tunnel. In these and many other cases, computational fluid dynamics (CFD) is at the forefront of active research into unravelling the probable causes of fires and helping to design structures and systems to ensure that they are less likely in the fComputational fluid dynamicsFire preventionComputational fluid dynamics.Fire prevention.620.1064621.4023621.4023Yeoh Guan Heng474499Yuen Kwok Kit508713MiAaPQMiAaPQMiAaPQBOOK9911006614403321Computational fluid dynamics in fire engineering772978UNINA01536oas 2200529 a 450 991089419140332120251105213014.0(DE-599)ZDB2531626-6(OCoLC)749268744(CONSER) 2013235118(CKB)2670000000212672(EXLCZ)99267000000021267220080312a20089999 uy engur|n|||||||||txtrdacontentcrdamediacrrdacarrierDiabetic hypoglycaemiaSandhurst ESP Bioscience[2008]-Crowthorne, Berkshire, UK ESP Bioscience1 online resourceRefereed/Peer-reviewedTitle from journal home page (viewed on Jan. 16, 2009).Publisher may have retrospectively changed the spelling of "hypoglycaemia" in the caption title and added the volume numbering to the issues of vol. 1.1757-2428 Diabetic hypoglycemiaHypoglycemiaPeriodicalsHypoglycemiafast(OCoLC)fst00966006Periodicals.fastHypoglycemiaHypoglycemia.616.466005UKMGBUKMGBNTEHULOCLCFCUSAU@OCLCQUKMGBOCLCQJOURNAL9910894191403321Diabetic hypoglycaemia4260650UNINA